Literature DB >> 25648996

Phenol-soluble modulin α induces G2/M phase transition delay in eukaryotic HeLa cells.

Martine Deplanche1, Rachid Aref El-Aouar Filho1, Ludmila Alekseeva1, Emilie Ladier1, Julien Jardin1, Gwénaële Henry1, Vasco Azevedo1, Anderson Miyoshi1, Laetitia Beraud1, Frederic Laurent1, Gerard Lina1, François Vandenesch1, Jean-Paul Steghens1, Yves Le Loir1, Michael Otto1, Friedrich Götz1, Nadia Berkova2.   

Abstract

Staphylococcus aureus is a gram-positive bacterium responsible for a wide range of infections. Host cell cycle alteration is a sophisticated mechanism used by pathogens to hijack the defense functions of host cells. We previously demonstrated that S. aureus MW2 (USA400) bacteria induced a G2/M phase transition delay in HeLa cells. We demonstrate here that this activity is triggered by culture supernatant compounds. Using size exclusion chromatography of the MW2 supernatant, followed by mass spectroscopy analysis of corresponding peaks, we identified phenol-soluble modulin α (PSMα) peptides as the likely candidates for this effect. Indeed, synthetic PSMα1 and PSMα3 caused a G2/M phase transition delay. The implication of PSMα in cell cycle alteration was confirmed by comparison of S. aureus Los Angeles County clone (LAC) wild-type with the isogenic mutant LAC∆psmα, which lacks the psmα operon encoding PSMα1-4. PSMα-induced G2/M transition delay correlated with a decrease in the defensin genes expression suggesting a diminution of antibacterial functions of epithelial cells. By testing the supernatant of S. aureus human clinical isolates, we found that the degree of G2/M phase transition delay correlated with PSMα1 production. We show that PSMs secreted by S. aureus alter the host cell cycle, revealing a newly identified mechanism for fostering an infection. © FASEB.

Entities:  

Keywords:  Staphylococcus aureus; cell cycle alteration; defensins; innate immune response; toxin

Mesh:

Substances:

Year:  2015        PMID: 25648996      PMCID: PMC4771068          DOI: 10.1096/fj.14-260513

Source DB:  PubMed          Journal:  FASEB J        ISSN: 0892-6638            Impact factor:   5.191


  34 in total

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